Oracle 10g small Blob or Clob not being stored inline?
According to the documents I've read, the default storage for a CLOB or BLOB is inline, which means that if it is less than approx 4k in size then it will be held in the table.
But when I test this on a dummy table in Oracle (10.2.0.1.0) the performance and response from Oracle Monitor (by Allround Automations) suggest that it is being held outwith the table.
Here's my test scenario ...
create table clobtest ( x int primary key, y clob, z varchar(100) )
;
insert into clobtest
select object_id, object_name, object_name
from all_objects where rownum < 10001
;
select COLUMN_NAME, IN_ROW
from user_lobs
where table_name = 'CLOBTEST'
;
This shows: Y YES (suggesting that Oracle will store the clob in the row)
select x, y from CLOBTEST where ROWNUM < 1001 -- 8.49 seconds
select x, z from CLOBTEST where ROWNUM < 1001 -- 0.298 seconds
So in this case, the CLOB values will have a maximum length of 30 characters, so should always be inline. If I run Oracle Monitor, it shows a LOB.Length followed by a LOB.Read() for each row returned, again suggesting that the clob values are held outwith the table.
I also tried creating the table like this
create table clobtest
( x int primary key, y clob, z varchar(100) )
LOB (y) STORE AS (ENABLE STORAGE IN ROW)
but got exactly the same results.
Does anyone have any suggestions how I can force (persuade, encourage) Oracle to store the clob value in-line in the table? (I'm hoping to achieve similar response times to reading the varchar2 column z)
UPDATE: If I run this SQL
select COLUMN_NAME, IN_ROW, l.SEGMENT_NAME, SEGMENT_TYPE, BYTES, BLOCKS, EXTENTS
from user_lobs l
JOIN USER_SEGMENTS s
on (l.Segment_Name = s. segment_name )
where table_name = 'CLOBTEST'
then I get the following results ...
Y YES SYS_LOB0000398621C00002$$ LOBSEGMENT 65536 8 1
Answer
The behavior of Oracle LOBs is the following.
A LOB is stored inline when:
(
The size is lower or equal than 3964
AND
ENABLE STORAGE IN ROW has been defined in the LOB storage clause
) OR (
The value is NULL
)
A LOB is stored out-of-row when:
(
The value is not NULL
) AND (
Its size is higher than 3964
OR
DISABLE STORAGE IN ROW has been defined in the LOB storage clause
)
Now this is not the only issue which may impact performance.
If the LOBs are finally not stored inline, the default behavior of Oracle is to avoid caching them (only inline LOBs are cached in the buffer cache with the other fields of the row). To tell Oracle to also cache non inlined LOBs, the CACHE option should be used when the LOB is defined.
The default behavior is ENABLE STORAGE IN ROW, and NOCACHE, which means small LOBs will be inlined, large LOBs will not (and will not be cached).
Finally, there is also a performance issue at the communication protocol level. Typical Oracle clients will perform 2 additional roundtrips per LOBs to fetch them: - one to retrieve the size of the LOB and allocate memory accordingly - one to fetch the data itself (provided the LOB is small)
These extra roundtrips are performed even if an array interface is used to retrieve the results. If you retrieve 1000 rows and your array size is large enough, you will pay for 1 roundtrip to retrieve the rows, and 2000 roundtrips to retrieve the content of the LOBs.
Please note it does not depend on the fact the LOB is stored inline or not. They are complete different problems.
To optimize at the protocol level, Oracle has provided a new OCI verb to fetch several LOBs in one roundtrips (OCILobArrayRead). I don't know if something similar exists with JDBC.
Another option is to bind the LOB on client side as if it was a big RAW/VARCHAR2. This only works if a maximum size of the LOB can be defined (since the maximum size must be provided at bind time). This trick avoids the extra rountrips: the LOBs are just processed like RAW or VARCHAR2. We use it a lot in our LOB intensive applications.
Once the number of roundtrips have been optimized, the packet size (SDU) can be resized in the net configuration to better fit the situation (i.e. a limited number of large roundtrips). It tends to reduce the "SQL*Net more data to client" and "SQL*Net more data from client" wait events.